Dual-head or hybrid print driver supporting xps and gdi print paths without performing data conversion between xps to emf or vice versa

ABSTRACT

A method is provided for improving printing performance of a print job from a Graphics Device Interface (GDI) based Windows® application submitted to an XPSDrv printer driver which is utilized by a filter pipeline service, wherein a required conversion from an existing GDI/device driver interface (DDI) to an XML Paper Specification (XPS) performed by a GDI-to-XPS conversion unit is eliminated to reduce latency. The method includes replacing the GDI-to-XPS conversion unit with a printer graphics driver which converts DDI calls into raw spool data; and adding a dual head filter as a first filter to the filter pipeline service to handle the raw spool data generated from the printer graphics driver.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to an improvement to the Microsoft®Windows® family of operating systems, and in particular, improvements toMicrosoft® Windows Vista™ print driver technology.

2. Description of the Related Art

Recently, Microsoft Corporation has introduced the Microsoft® WindowsVista™ operating system. Windows Vista™ uses two print paths (ordrivers) for processing print jobs including the XML Paper Specification(XPS) print path and the Graphics Device Interface (GDI) print path. TheXPS print path implements a filter based XPSDrv print driver. Both printpaths are present in the Windows Vista™ print subsystem which includesconversion routines that convert print jobs from one print path to theother. These drivers can be used to print from a Win32® application orWindows Presentation Foundation (WPF) application.

The XPSDrv print driver and print path processing are described ingreater detail in the Microsoft® Windows® whitepaper entitled “TheXPSDrv Filter Pipeline”, published Nov. 3, 2005 (seehttp://www.microsoft.com/whdc/device/print/XPSDRV_FilterPipe.mspx).Moreover, an overview of printing enhancements enabled by XPS aredescribed in greater detail in the Microsoft® Windows® whitepaperentitled “XPS and Color Printing Enhancements in Microsoft® WindowsVista™”, published Sep. 1, 2005 (seehttp://www.microsoft.com/whdc/xps/vista_print.mspx).

Print Paths in Windows Vista™

FIG. 1 illustrates system components of the conventional print paths nowprovided in Windows Vista™. A print subsystem 6 is provided with an XPSto GDI conversion unit 8, a GDI to XPS conversion unit 10, an XPS spool14, XPSDrv driver 18, EMF spool 12, and GDI/DDI driver 16. A Win32application 2 starts a print job in the GDI print path 5. In the XPSprint path 3, a Windows Presentation Foundation (WPF) application 4starts the print job. Once an application submits a print job to theGDI/DDI driver 16, it may be processed and routed to a PDL-based device20 for printing. Otherwise, when an application submits a print job tothe XPSDrv driver 18, it may be routed to an XPS document-based 22device for printing.

The print subsystem 6 in Windows Vista™ implements the XPS print path 3that supports the XPS spool file 14 and the WPF based graphics engine.The GDI print path 2 (from Windows XP), which uses the GDI/DDI basedprint driver 16, is also still available in Windows Vista™. Moreover,FIG. 1 shows the additional built-in conversion capabilities that allowMicrosoft Win32® GDI-based applications 2 to print to XPS documentdevices 22 and that allow WPF applications 4 to print to legacy printers20. As a result, both Win32 and WPF applications 2, 4 can print toeither type of printer driver 16, 18.

As shown in FIG. 1, if the Win32 application 4 prints to the XPSDrvdriver 18, GDI-DDI calls are converted to XPS spool data before beingsent to the XPSDrv Driver 18. On the other hand, if WPF application 4prints to GDI/DDI driver 16, XPS based spool data is converted to EMFthat will be fed to an EMF print processor to generate PDL output for aPDL-based device 20.

FIG. 2 illustrates a side-by-side comparison of the conventional XPSprint path 3 and the conventional GDI print path 5 in Windows Vista andhow the print subsystem 6 processes print jobs. Print jobs that are sentto a print queue with an XPSDrv printer driver 18 are spooled by printspooler 24 in the XPS spool file format 14 and processed in the XPSprint path 3 by print filter pipeline service 28. Print jobs that aresent to the print queue with a GDI-based, Version-3 printer driver 16are spooled by print spooler 24 in the EMF spool file format andprocessed in the GDI print path 5 by GDI print subsystem 27.

Now referring to FIG. 2, the print subsystem 6 further includes printspooler 24 which services the GDI print path 5 and the XPS print path 3,respectively. The architecture of the GDI/DDI driver 16 print path 5includes GDI print subsystem 27 which includes printer graphics DLLVersion 3 print driver 42, an EMF print processor 38 and a GDI renderingengine 40. The architecture of the XPSDrv driver 18 print path 3includes a print filter pipeline service, filter configuration file 32and a filter pipeline manager 30 which includes various filters forindividualized tasks Filter A, Filter B, Filter n . . . and so on.

Conversion routines are performed by XPS to GDI conversion unit 8 andGDI to XPS conversion unit 10 so that Win32 applications 2 can print toan XPS printer 36 with XPSDrv printer driver 18 and WPF applications 4can print to a GDI printer 34 with the GDI-based printer driver 16. WhenWin32 application 2 submits the print job to the spooler, the printsubsystem determines whether the print job from the application 2 mustbe converted before spooling although the type of the printer driver 16,18 of the target print queue determines which print path 3, 5 issupported. If the application's presentation technology differs fromthat of the print path 3, 5 supported by the driver 16, 18, the printjob format must be converted by the XPS to GDI conversion unit 8 and GDIto XPS conversion unit 10 which convert between the XPS and the GDIprint paths 3, 5.

XPS-to-GDI Conversion Path

FIG. 3 illustrates the conventional XPS-to-GDI conversion path 7 (seealso FIG. 1). XPS documents that are sent to a printer 34 with aGDI-based printer driver 16 are converted by the XPS-to-GDI conversion(XGC) module 8 that is part of the WPF print support 11. In particular,FIG. 3 shows how the WPF print support 11 processes documents forprinters 34, 36 based on the type of printer driver. The application 4prints the document by using the WPF print support 11. Moreover, whenprinting to a GDI-based printer driver 16, the XGC 8 simulates aWin32-based application and makes GDI calls to the GDI functions thatare required to spool the document for the GDI-based print path 5.

If the job is submitted from WPF application 4, underneath, WPF printsupport 11 checks the driver type, if it is an XPSDrv driver 18, thenthe job is serialized to print pipeline service 28 and further processedby the XPSDrv filters 30.

GDI-to-XPS Conversion Path

FIG. 4 illustrates the GDI-to-XPS conversion path 9 (see FIG. 1). When aWin32 application 2 sends a document to a printer 36 with an XPSDrvprinter driver 18, the spooler 24 uses the GDI-to-XPS conversion (GXC)unit 10 to create an XPS spool file 14 for the XPS print path 3 from theapplication that calls the GDI functions.

When the print job is submitted from a Win32 application 2, the type ofthe printer driver is checked. If it is an XPSDrv driver 18, GDI to XPSconverter 10 (also referred to as MXDX) is used to convert GDI/DDI callsinto XPS spool data 14 and then the print job is fed to print filterpipeline service 28.

Although the aforementioned conversions between XPS and EMF or viceversa are acceptable solutions, one drawback of this approach is thatthe conversions take processing time. In particular, these dataconversions create unwanted latency with regard to the performance ofthe printing process. Since most of the printers out in the market donot support XPS natively, it is totally redundant to convert EMF intoXPS, and again converting XPS into device-specific PDL data at therenderer filter.

Therefore, it would be advantageous to eliminate the conversion from XPSto GDI or from GDI to XPS in an effort to improve the performance ofprinting from the Win32 application 2 as well as provide rich XPSprinting from a WPF application 4.

SUMMARY OF THE INVENTION

According to an exemplary embodiment of the present invention, animprovement is provided for the Microsoft® Windows® family of operatingsystems, such as the recently introduced Microsoft® Windows Vista™operating system.

And in particular, a method of supporting XPS and GDI print job in asingle driver without performing any data conversion between XPS to GDIor vice versa. This new hybrid dual-head XPS driver includes a GDI/DDIgraphics driver as well as XPS filter components to support both printpaths even though the driver utilized is configured as an XPS driver inan installation file. When the Win32 application prints to thisdual-head XPS driver, a spooler tries to convert GDI/DDI calls into XPS,since the conversion unit is replaced with a GDI/DDI graphics driver,the print spooler ends up converting from GDI/DDI calls into eitherextended Enhanced MetaFile Format (EMF) data or RAW data in printersupported printer definition language (PDL). Replacing the GDI to XPSconversion unit with a graphics driver mimics the printing of the Win32application using a GDI/DDI driver. As a result, the present inventionwill greatly improve performance of high-speed GDI printing from a Win32application as well as provide feature-rich XPS printing from WPF basedapplications.

According to a first exemplary embodiment of the present invention, amethod is provided for improving printing performance of a print jobfrom a Graphics Device Interface (GDI) based Windows® applicationsubmitted to an XPSDrv printer driver which is utilized by a filterpipeline service, wherein a required conversion from an existingGDI/device driver interface (DDI) to an XML Paper Specification (XPS)performed by a GDI-to-XPS conversion unit is eliminated to reducelatency. The method includes replacing the GDI-to-XPS conversion unitwith a printer graphics driver which converts DDI calls into raw spooldata; and adding a dual head filter as a first filter to the filterpipeline service to handle the raw spool data generated from the printergraphics driver.

According to another aspect of the present invention, a first filter inthe filter pipeline service is configured to take IPrintReadStream asinput print data and then output print data as IPrintWriteStream, anddetermine whether the input print data is in an XPS data format oranother data format generated from the printer graphics driver.

According to yet another aspect of the present invention, if the inputprint data is not in the XPS data format, and is instead in raw spooldata format, the print job is resubmitted. Moreover, according toanother aspect of the present invention, resubmitting the print jobincludes setting data type as XPS_PASS, and as a result, the filterpipeline service and input print data will be directly sent to aprinter.

Furthermore, according another aspect of the present invention, whenprinting from a Windows Presentation Foundation (WPF) application, andif the first filter determines that the input print data is in XPS dataformat, the input print data is passed to a second filter of the filterpipeline service without any modification.

According to another embodiment of the present invention, a method forimproving printing performance of a print job from a Graphics DeviceInterface (GDI) based Windows® application submitted to an XPSDrvprinter driver which is utilized by a filter pipeline service, wherein arequired conversion from an existing GDI/device driver interface (DDI)to an XML Paper Specification (XPS) performed by a GDI-to-XPS conversionunit is eliminated to reduce latency. Here, the method includeseliminating the conversion performed by the GDI-to-XPS conversion unitby replacing the GDI-to-XPS conversion unit with a printer graphicsdriver which converts DDI calls into enhanced metafile format(EMF) data;and adding a dual head filter as a first filter to the filter pipelineservice to handle the EMF data generated from the printer graphicsdriver.

And furthermore, according to still yet another aspect of the presentinvention, a first filter in the filter pipeline service is configuredto take IPrintReadStream as input print data and then output print dataas IPrintWriteStream, and determine whether the input print data is inan XPS data format or EMF data format generated from the printergraphics driver.

Also, according to another aspect of the present invention, if the inputprint data is not in the XPS data format, and is instead in EMF dataformat

Still further, according to another aspect of the present invention,instead of resubmitting the print job the first filter launches a pagelayout server and passes input print data through IPrintReadStream.Moreover, according to another aspect of the present invention, the pagelayout server reads the input print data, performs page layout features,and plays the EMF data.

And furthermore, according to another aspect of the present invention,the printer graphics driver generates raw print data which is sent to aprinter. Also, according to another aspect of the present invention,instead of resubmitting the print job, the first filter launches a pagelayout server as a separate application and passes the input print datathrough a memory mapped file or a Namedpipe.

Moreover, according to another exemplary embodiment of the presentinvention, a computer readable medium is provided containingcomputer-executable instructions for improving printing performance of aprint job from a Graphics Device Interface (GDI) based Windows®application submitted to an XPSDrv printer driver which is utilized by afilter pipeline service, wherein a required conversion from an existingGDI/device driver interface (DDI) to an XML Paper Specification (XPS)performed by a GDI-to-XPS conversion unit is eliminated to reducelatency. The medium includes computer-executable instructions forreplacing the GDI-to-XPS conversion unit with a printer graphics driverwhich converts DDI calls into raw spool data; and computer-executableinstructions for adding a dual head filter as a first filter to thefilter pipeline service to handle the raw spool data generated from theprinter graphics driver.

And finally, according to still yet another exemplary embodiment of thepresent invention, a computer readable medium is provided containingcomputer-executable instructions for improving printing performance of aprint job from a Graphics Device Interface (GDI) based Windows®application submitted to an XPSDrv printer driver which is utilized by afilter pipeline service, wherein a required conversion from an existingGDI/device driver interface (DDI) to an XML Paper Specification (XPS)performed by a GDI-to-XPS conversion unit is eliminated to reducelatency. Here, the medium includes computer-executable instructions foreliminating the conversion performed by the GDI-to-XPS conversion unitby replacing the GDI-to-XPS conversion unit with a printer graphicsdriver which converts DDI calls into enhanced metafile format(EMF) data;and computer-executable instructions for adding a dual head filter as afirst filter to the filter pipeline service to handle the EMF datagenerated from the printer graphics driver.

Besides improving printing performance, it is noted that anotheradvantage of the present invention is that only one printer driver isrequired to print from Win32 applications as well as WPF applicationswithout any data conversion.

It is also noted that further embodiments, features and aspects of thepresent invention will become apparent from the following detaileddescription of exemplary embodiments with reference to the attacheddrawings.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute apart of the specification, illustrate various embodiments, features andaspects of the present invention and, together with the description,serve to explain the principles of the invention.

FIG. 1 illustrates system components of conventional print paths inWindows Vista.

FIG. 2 illustrates a side-by-side comparison of a conventional XPS printpath and a conventional GDI print path in Windows Vista.

FIG. 3 illustrates the conventional XPS-to-GDI conversion path.

FIG. 4 illustrates the conventional GDI-to-XPS conversion path.

FIG. 5 illustrates a GDI-to-XPS conversion elimination procedureaccording to a first exemplary embodiment of the present invention.

FIG. 6 illustrates another GDI-to-XPS conversion elimination procedureaccording to a second exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Exemplary embodiments, features and aspects of the present inventionwill now be herein described in detail below with reference to thedrawings.

First Exemplary Embodiment

The aforementioned features and aspects of the first exemplaryembodiment will now herein be discussed in greater detail below.

[Eliminating GDI to XPS Conversion by Replacing (MXDL) with PrinterGraphics Driver and Resubmitting the Job]

FIG. 5 illustrates a GDI-to-XPS conversion elimination procedureaccording to a first exemplary embodiment of the present invention.Here, the GDI-to-XPS (which may also referred to as MXDC or MXDWDRV.DLL)converter 10 is replaced with printer graphics driver 44 in a printerinstallation setup file. Further, configuration module 46 is configuredto handle DOCUMENT_EVENTS from GDI jobs as well as XPS print jobs.

In particular, the GDI-to-XPS (MXDL) conversion unit 10 is replaced withprinter graphics driver 44 which rasterizes device driver interface(DDI) calls into RAW print data that will be sent to print filterpipeline service 28. The first Filter A in the filter pipeline service28 is configured to take IPrintReadStream as input print data and outputprint data as IPrintWriteStream. Then first Filter A read the print databy using IPrintReadStream where it checks the incoming print data typeto determine whether it is XPS data or another data format generatedfrom the print graphics driver 44. If the input print data is not in anXPS data format and is instead in the device-specific RAW format, thejob is resubmitted with setting data type as XPS_PASS as specified inthe below pseudo code:

// Resubmit the new job. DOC_INFO_1 docinfo; docinfo.pOutputFile = NULL;docinfo.pDataType = XPS_PASS; StartDocPrinter(hPrinter, 1, &docinfo);Call series of WritePrinter( ) with data reading from IPrintReadStream.EndDocPrinter( ) // Cancel the current job.

As a result, resubmitting the new job with pDataType as XPS_PASS willskip filter pipeline service 28 and print data will be directly sent toprinter 36.

Further it is noted that when printing from WPF application 4, where ifthe first filter A determines the type of the print data as XPS printdata is passed to the 2^(nd) filter B without any modification.

Second Exemplary Embodiment

The aforementioned features and aspects of the second exemplaryembodiment will now herein be discussed in greater detail below.

[Eliminating GDI to XPS Conversion by Replacing (MXDL) Printer GraphicsDriver and Launching In-Process Page Layout Server from First Filter]

FIG. 6 illustrates another GDI-to-XPS conversion elimination procedureaccording to a second exemplary embodiment of the present invention. Inthis approach, instead of resubmitting the print job from the firstfilter A within print filter pipeline service 28, first filter Alaunches page layout server 45 with passing IPrintReadStream as aninput. The page layout server 45 can be an in-proc or a local server.When page layout server 45 is used, it reads the extended EMF spool file43 data via IPrintReadStream, performs page layout features, and playsthe EMF file. At this time, the GDI/DDI graphics driver 44 generates RAWprint data which will be sent to printer 36. Communication betweenFilter A and page layout server 45 can be implemented in many differentways such as NamedPipe, memory mapped file, etc. or the like.

Third Exemplary Embodiment

The aforementioned features and aspects of the third exemplaryembodiment will now herein be discussed in greater detail below.

[Eliminating GDI to XPS Conversion by Replacing (MXDL) with PrinterGraphic Driver and Launching a Separate Application from First Filter A]

The third embodiment is similar to the second embodiment, but data ispassed through a memory mapped file (not illustrated) or Namedpipe,instead of IPrintReadStream, from first filter A. In this embodiment,page layout features can be implemented in a separate application.

Other Exemplary Embodiments

While the present invention has been described with reference toexemplary embodiments, it is to be understood that the invention is notlimited to the disclosed exemplary embodiments. The scope of thefollowing claims is to be accorded the broadest interpretation so as toencompass all modifications, equivalent structures, and functions.

It is noted that this invention can also be applied to Windows XP SP2upgraded to Windows XPS print driver technology.

The embodiments described above current describes using Microsoft's IxpsDocument Provider and Ixps Document Consumer as input and outputinterfaces respectively. However, Microsoft also providesIPrintReadStream and IPrintWriteStream as input and output interfacesfor the filters. Nevertheless, the present invention also applies forthe usage IPrintReadStream and IPrintWriteStream without any change tothe core flow described above.

The functions described above can be implemented by a host computeraccording to a program installed from outside. In that case, the presentinvention is applicable to a case where information including programsis supplied from a storage media, such as a CD-ROM, a flash memory, andan FD, or from an external storage medium through the network.

A storage medium storing program code of software that executes thefunctions of the above-described embodiments can be supplied to a systemor an apparatus. Then, an aspect of the present invention can beachieved by reading and executing the program code stored on the storagemedium by a computer (alternatively, a CPU or an MPU) of the system orapparatus.

In this case, the program code itself read from the storage medium canachieve the functions of the above-described embodiments, and thestorage medium storing the program code configures the presentinvention. Accordingly, any form of program can be used as long as ithas a program function, such as object code, a program executed by aninterpreter, and script data supplied to an OS.

The storage medium for supplying a program includes, for instance, aflexible disk, a hard disk, an optical disk, a magnet-optical disk, anMO, a CD-ROM, a CD-R, a CD-W, a magnetic tape, a nonvolatile memorycard, a ROM, a DVD or the like.

Moreover, the program according to the present invention can beencrypted and stored on a storage medium such as a CD-ROM to bedistributed to users. Then, a user who meets a predetermined conditionis allowed to download key information for decryption from a web pagevia the Internet. The user can install and execute the encrypted programusing the key information.

Moreover, with program code read and executed by a computer, not onlythe functions of the embodiments are achieved but also an OS operatingon the computer can perform all of or part of the actual processingbased on the instruction of the program code. The functions of theembodiments are achieved by the processes described above.

In addition to that, program code read from a storage medium is writtento a memory provided in a function extension board inserted in acomputer or a function extension unit connected to a computer. Then, aCPU provided in the function extension board or the function extensionunit performs all of or part of the actual processing based on theinstruction of the program code. The functions of the embodiments areachieved by the above-described processes.

1. A method for improving printing performance of a print job from aGraphics Device Interface (GDI) based Windows® application submitted toan XPSDrv printer driver which is utilized by a filter pipeline service,wherein a required conversion from an existing GDI/device driverinterface (DDI) to an XML Paper Specification (XPS) performed by aGDI-to-XPS conversion unit is eliminated to reduce latency, the methodcomprising: replacing the GDI-to-XPS conversion unit with a printergraphics driver which converts DDI calls into raw spool data; and addinga dual head filter as a first filter to the filter pipeline service tohandle the raw spool data generated from the printer graphics driver. 2.The method according to claim 1, wherein a first filter in the filterpipeline service is configured to take IPrintReadStream as input printdata and then output print data as IPrintWriteStream, and determinewhether the input print data is in an XPS data format or another dataformat generated from the printer graphics driver.
 3. The methodaccording to claim 2, wherein if the input print data is not in the XPSdata format, and is instead in raw spool data format, the print job isresubmitted.
 4. The method according to claim 3, wherein resubmittingthe print job includes setting data type as XPS_PASS, and as a result,the filter pipeline service and input print data will be directly sentto a printer.
 5. The method according to claim 2, wherein when printingfrom a Windows Presentation Foundation (WPF) application, and if thefirst filter determines that the input print data is in XPS data format,the input print data is passed to a second filter of the filter pipelineservice without any modification.
 6. A method for improving printingperformance of a print job from a Graphics Device Interface (GDI) basedWindows® application submitted to an XPSDrv printer driver which isutilized by a filter pipeline service, wherein a required conversionfrom an existing GDI/device driver interface (DDI) to an XML PaperSpecification (XPS) performed by a GDI-to-XPS conversion unit iseliminated to reduce latency, the method comprising: eliminating theconversion performed by the GDI-to-XPS conversion unit by replacing theGDI-to-XPS conversion unit with a printer graphics driver which convertsDDI calls into enhanced metafile format(EMF) data; and adding a dualhead filter as a first filter to the filter pipeline service to handlethe EMF data generated from the printer graphics driver.
 7. The methodaccording to claim 6, wherein a first filter in the filter pipelineservice is configured to take IPrintReadStream as input print data andthen output print data as IPrintWriteStream, and determine whether theinput print data is in an XPS data format or another data formatgenerated from the printer graphics driver.
 8. The method according toclaim 7, wherein if the input print data is not in the XPS data format,and is instead in raw spool data format, the print job is resubmitted.9. The method according to claim 8, wherein resubmitting the print jobincludes setting data type as XPS_PASS, and as a result, the filterpipeline service and input print data will be directly sent to aprinter.
 10. The method according to claim 7, wherein when printing froma Windows Presentation Foundation (WPF) application, and if the firstfilter determines that the input print data is in XPS data format, theinput print data is passed to a second filter of the filter pipelineservice without any modification.
 11. The method according to claim 8,wherein instead of resubmitting the print job, the first filter launchesa page layout server and passes input print data throughIPrintReadStream.
 12. The method according to claim 11, wherein the pagelayout server reads the input print data, performs page layout features,and plays the EMF data.
 13. The method according to claim 12, whereinthe printer graphics driver generates raw print data which is sent to aprinter.
 14. The method according to claim 8, wherein instead ofresubmitting the print job, the first filter launches a page layoutserver as a separate application and passes the input print data througha memory mapped file or a Namedpipe.
 15. A computer readable mediumcontaining computer-executable instructions for improving printingperformance of a print job from a Graphics Device Interface (GDI) basedWindows® application submitted to an XPSDrv printer driver which isutilized by a filter pipeline service, wherein a required conversionfrom an existing GDI/device driver interface (DDI) to an XML PaperSpecification (XPS) performed by a GDI-to-XPS conversion unit iseliminated to reduce latency, the medium comprising: computer-executableinstructions for replacing the GDI-to-XPS conversion unit with a printergraphics driver which converts DDI calls into raw spool data; andcomputer-executable instructions for adding a dual head filter as afirst filter to the filter pipeline service to handle the raw spool datagenerated from the printer graphics driver.
 16. The medium according toclaim 15, further including computer-executable instructions forconfiguring a first filter in the filter pipeline service to takeIPrintReadStream as input print data and then output print data asIPrintWriteStream, and determine whether the input print data is in anXPS data format or another data format generated from the printergraphics driver.
 17. The medium according to claim 16, further includingcomputer-executable instructions for resubmitting the print job if theinput print data is not in the XPS data format, and is instead in rawspool data format.
 18. The medium according to claim 17, whereincomputer-executable instructions for resubmitting the print job includessetting data type as XPS_PASS, and as a result, the filter pipelineservice and input print data will be directly sent to a printer.
 19. Themedium according to claim 16, further including computer-executableinstructions for passing the input data to a second filter of the filterpipeline service without any modification when printing from a WindowsPresentation Foundation (WPF) application, if the first filterdetermines that the input print data is in XPS data format.
 20. Acomputer readable medium containing computer-executable instructions forimproving printing performance of a print job from a Graphics DeviceInterface (GDI) based Windows® application submitted to an XPSDrvprinter driver which is utilized by a filter pipeline service, wherein arequired conversion from an existing GDI/device driver interface (DDI)to an XML Paper Specification (XPS) performed by a GDI-to-XPS conversionunit is eliminated to reduce latency, the medium comprising:computer-executable instructions for eliminating the conversionperformed by the GDI-to-XPS conversion unit by replacing the GDI-to-XPSconversion unit with a printer graphics driver which converts DDI callsinto enhanced metafile format(EMF) data; and computer-executableinstructions for adding a dual head filter as a first filter to thefilter pipeline service to handle the EMF data generated from theprinter graphics driver.
 21. The medium according to claim 20, furtherincluding computer-executable instructions for configuring a firstfilter in the filter pipeline service to take IPrintReadStream as inputprint data and then output print data as IPrintWriteStream, anddetermine whether the input print data is in an XPS data format oranother data format generated from the printer graphics driver.
 22. Themedium according to claim 21, further including computer-executableinstructions for resubmitting the print job if the input print data isnot in the XPS data format, and is instead in raw spool data format. 23.The medium according to claim 22, wherein the computer-executableinstructions for resubmitting the print job include setting data type asXPS_PASS, and as a result, the filter pipeline service and input printdata will be directly sent to a printer.
 24. The medium according toclaim 21, further including computer-executable instructions for passingthe input print data to a second filter of the filter pipeline servicewithout any modification when printing from a Windows PresentationFoundation (WPF) application, and if the first filter determines thatthe input print data is in XPS data format.
 25. The medium according toclaim 22, further including computer-executable instructions for thefirst filter to launch a page layout server and pass input print datathrough IPrintReadStream, instead of resubmitting the print job.
 26. Themedium according to claim 25, further including computer-executableinstructions for having the page layout server read the input printdata, perform page layout features, and play the EMF data.
 27. Themedium according to claim 26, further including computer-executableinstructions for the printer graphics driver to generate raw print datawhich is sent to a printer.
 28. The method according to claim 22,further including computer-executable instructions for the first filterto launch a page layout server as a separate application and pass theinput print data through a memory mapped file or a Namedpipe, instead ofresubmitting the print job.